Machine tool



Aug. 10, 1937.

W. F. RIDGWAY MACHINE TOOL Filed March 4, 1935 7 Sheets-Shale?, l

Aug 10, 1937- W. F. RIDGWY l '2,089,814

MACHINE TOOL Filed March 4, 1935 '7 Sheets-Sheet 2 NVENTOQ/ Aug. 1o, 1937. w. F. RIDGWAY 2,089,814

MACHINE TOOL Filed March 4, lss 7 sheets-sheet s FASTER SLOWER RAM SPINDLE w. F. RIDGWAY 2,089,814

MACHINE TOOL Fil`ed March 4, 1935 7 Sheets-Sheet 4 .@@GJ l STD SPINDLE 'I' HEAD FEED HT .III-l UP SPINDLE DOWN FASTER RUN STOF TABLE FEED our TBLE STOP I IIRUNI III |II MII-:Rss FASTFD I I I II AIL DOWN I I u;

' mamma,

Aug. l0, 1937, w. F. RIDGWAY MACHINE TOOL .File March 4, 1955 7 sheets-sheet 5 Aug. l0, 1937. w. F. RIDGWAY MACHINE TOOL Filed March 4, 1935 7 Sheets-Sheet 6 Aug. 10, 1937.

w RIDGWAY MACHINE TOOLl Fild March 4, 1935 7 Sheets-Sheet 7 NVENTOQ/ .59 large extent, and are caused to follow the gendicating the speed of the drive:

Patented Aug. 10, 19377- UNITED STATES PATENT OFFICE MACHINE TOOL v.application Maren4 4, 1935, serial No. 9,134

31 Claims.

The present invention relates to improvements in machine tools, and is particularly adapted for large size machines having a plurality of operative elements, such for example as a cross-rail milling machine.

One of the objects ofthe present invention resides in the provision, in a machine tool having a plurality o! translatory and' rotatable elements, of a novel electrical selective drive for all L of the elements operable from one control panel.

Another object is to provide a novel system of electrical drives for a plurality of operable machine elements having a selective dual control, for example a control operable selectively either from a stationary panel or from a movable panel in the form of a pendant.

A further object resides in the provision, in a machine tool, cfa system of elec rical drives for a plurality of selectively operable elements including duplicate selectivelyavailable groups of control switches for each drive mounted on two independent panels, and including duplicate visual indicators associated respectively .with the corresponding groups of switches for facilitating a ready transfer of attention from any group on one panel to the corresponding group on the other panel.

Another object resides in the provision of novel means for supporting the pendant, and permitting ready and convenient adjustment of the latter in -an approximate straight line motion over a substantial area:

Still another object is to provide a new and improved system of electrical drives, for a plurality of machine elements, comprising relatively high voltage motorv circuits, and circuits of a relatively low voltage for a series of relays andV `and in which the controlswitches are compactly grouped and arranged in control switches,

a small pendant.-

A further object is to provide" an electrical variable speed drive for a machine tool element, comprising a drive motor having an adjustable resistance in one circuit, and meansfor indicating'the adjustment of the resistance and for in- Another object resid in enclosing the wires of. the Various circuits leading to the machine elementsfin conduits. hich are concealed to a eral contouroi the machine.

Further objects reside in y system of electrical drives iora translatory machine element and a rotary.4 machine element, of

the provision, in a (Cl.- Sil-21) any one or more novel interlocks respectively for preventing institution of the translatory drive unless the rotary drive is in operation, for interrupting all of said drives if the translatory element -is translated beyond a predetermined '5 point, `for adjusting the relative speed of the drives if o ne drive is subjected to a predetermined overload, and for automatically interrupting all of said drives if the overload on one drive exceeds a predeterminedmaximum. 10

Other objects and advantages will become apparent as the description proceeds.

In the accompanying drawings, Figure .1 is a perspective view of a machine embodying the features of my invention. l 15 Fig. 2 is a diagrammatic representation oi the electrical control for the rotative drives.

Fig. 3 is adiagrammatic representation of the electrical control for the translatory drives.

Fig. 4 is a fragmentary diagrammaticy representation of a modied formo! control for both drives.

l Fig. 5 is an elevational view on an enlarged scale'of a. movable switch panel. s Fig. 6 is a front elevational' view on an en- 25 larged scale of a stationary switch panel. Fig. 'l is a iragmentary'plan view'o'f the machine. y

Fig. 8 is a. fragmentary vertical sectional view of the machine taken substantially along line. 30 8-8 of Fig'. 7 1

Fig. 9 .is a fragmentary elevational view ot the machine and particularly of the support for the movable panel.

A Fig. 10 is a fragmentary plan view of the con- 35 struction illustrated in Fig. 9. The features of the present inventicn may be embodied in various types of machine tools for performingdiiferent metal removing processes, I and are particularly suitable for /single o r multi- 40 ple purpose machines having one or more translatory elementsand one or more power driven spindles. For purposes of illustration, the invention in its preferred form is .herein disclosed as embodied in a so-called cross-rail millingmachine. It is to be understood, however, that the invention is not limited to the speciiicform or environment disclosed, but embraces'all modifications. adaptations and alternative construc- 5 tioiis coming within the spirit and scope of the appended claims. General machine structure 'lrlhe machine (see Fig. 1) comprises an elon- 55' gated horizontal bed I which is formedon the top with parallel spaced longitudinal ways 2. A

table 3 is mounted for reciprocation on the ways 2, and is adapted to be driven selectively in either 5 direction at a rapid traverse or at a slow feed.

For convenience, movement of the table 3 forwardly or to the left in Fig. 1 will be designated as the out movement. and the reverse movement will be referred to as the "in movement.

Al 'I'he drive means may b e of any suitable type or form, and is herein shown (see Figs. 1 and 3) as comprising a'planetary gearing 4having a central sun gear 5, a plurality of idler gears B `iournaled on a rotatable support 1 and meshl ing with the sun gear, and an internal gear ,3

meshing with the idler gears. The support 1 constitutes the driven element of the gearing 4, and

is iixed coaxially on one end of a worm 9 anchored against endwise movement. A longitudinal gear rack III on the underside of the table 31 meshes with the worm` 9. The internal gear 8 constitutesa driving element of the gearing 4, and is adapted to be driven by an electric feed motor II having an armature I2 and a field I3. In the present instance, the amature I2 is connected through a shaft I4 to a worm I5 meshing with a worm wheel I3 integral with the internal gear 8; To obtain a feed movement, the sun gear 5 is stationary, and the table3 is driven only from the motor II. When a rapid traverse is desired, the

feed drive is supplemented in a differential action by driving the sun gear 5 through a shaft I1 from a rapldtraverse'motor I8 having an .armature i9 and a eld 23. Rotation 'of `the sun` gear 5 during the feed drive is prevented by a brake 2| normally acting on the shaft I1, and

adapted to be released by an electric coil 22 when i ,the rapid traverse drive is instituted.

Two vertical columns 23 and 24 are rigidly y mounted at opposite sides of the bed I, and preferably substantially midway of the ends thereof.

. The upper ends of the columns 23 and '24 are.

Arigidlyconnected by a horizontal bridge member 25 spanning the table 3. Spaced parallel vertical ways 29, 21 and 29 are formed on the forward and inner sides of each of the columns i 23 and 24.

29, extending traversely of the bed I,` is

i mounted for translation on the ways 23, 21 and 29, and is adapted to be driven in either direction selectively at a rapid traverse or -a slow feed. Two counterweights 39 (see Fig. 7) are suspended respectively within the columns 23 land 24, and are connected to the cross rail 29 at points adjacent the columns by means of cables 3| running over sheaves 32 on the bridge member 25. -v The drive means for the cross rail 29 preferably comprises two vertical rotaryscrews '33 and 34 which are anchored at their ends against longi- 50 tudinal movement and which are positioned respectively between the ways 23- and 21 of the columns 23 and 24. 'I'hese screws are adapted to be driven in synchronism either at a rapid traverse ratenor a slow feed rate by rapid traverse e5 and feed motors 35 and 33.v 1

The front of the cross rail 29 is formed with vertically spaced parallel longitudinal ways 31 on which one or more tool heads may be mounted for translation. -In the present instance, ltwo se lectively available tool heads 33 and 39 are shown. The head 38 comprises a vertical spindle y 49 which is mounted for rotation and axial drive, and which is adapted atits lower end to support a suitable tool, such as an end face milling cutter 4I. The head 39 comprises a vertical ram An elongated horizontal cross rail possible to usey large and 'effectual actuation of the heavy machine tool source of energy for actuation of. the primary 5. 'relay circuits insures eiective operation of the Atraversing the tool heads 38 and 39 .along the crossrail 29, and translating the spindle 40 and the ram 42 axially, either at a rapid traverse or a variable feed. In its preferred form, this means comprises arotary spline shaft 45 and a stationl5 ary-screw 48, both of which extend through the tool heads 38 and 39 and are anchored at the ends of the cross rail 29. Enclosed within Vthe heads 38 and 39 are four drive connections (not shown) from the spline shaft 45 and under the 20 vcontrol respectively of clutch actuators 41, 48,

49 and 59. The rst two connections are adapted to cooperate with the screw 46 respectively to translatethe heads 38 and 39. 'I'he other two connections respectively include change-speed 25 mechanisms 5I and 52, and provide the axial ,drives for the spindle 49 and the ram 42. One endof the shaft 45 is adapted to be driven either at a rapid traverse or a variable feed, through I a planetary gearing similar to the gearing 4, and 30 a change-speed mechanism 53, from feed and rapid traverse motors 54 and 55.

Master control and the 'two rotative drives, three sources of/ electric current of diierent 'potential common 40 to all of the sets ofi control circuits, and a master switch -56 for rendering the system as a whole operative. Each set of control circuits comprises motor circuits adapted to be connectedacross the source of highest potential, for example 230 volts, 45 primary relay circuits adapted to be connected across the, source of intermediate potential, for example volts, and secondary relay circuits adapted to be connected across the source of lowest potential, for'example 12 volts. The high 50 potential source for the motor circuits makes it powerful -motors for elements. Thev use of an intermediate potential relatively heavy switches, which are utilized to control the main venergir'ring circuits, .while the use of low potential secondary relaycircuits makes it possible to utilize small compact operat- 60 ing switches therefor, as well as small lightly insulated conductors. 'Ihe use of such low potential control devices as are herein illustrated not only makes possible a light compact control device but also p otects the operator against 65 dangerous or harmful shocks in the event that he touches any oi' the low potential circuit divices. Preferably, direct current isemployed. Current from the high potential source is available across main lines- 51 and 58. The intermediate ,70V

a. field 63 connected across the lines 579 and 59, 75

' the lines 51 and the power lines either by three supply mains. Thus, v

above, the intermediate potential supply main is.

and having main lines 64 and 65 of which the former is adapted to be connected by manually operable switches 66 and 66*l respectively for the rotative and translatory drives .either to a line 61 or a line 61B. A voltmeter 68 is connected vacross the lines 64 and 65. The generator 6,2 is adapted to be driven by a motor 69 having a shunt eld 18 and adapted to be connected across 58 by a switch 1| when the switch 66 is closed.A The switches 66, 66*3L and 1| have a common actuator 12.

The master switch 56 is under the control of a manually operable normally open reset switch 13, and is operable by an actuating coil 14 for temporarily closinga switch 15, and a sealing coil 11 for closing switches 18 and 19. closingthe switch 13, a circuit isi-completed from' the line 59, through the switch 13, a line 88 and the coil 14 to the line 60. Thereupon, the switch 15 is closed to complete a circuit from the line 59, through the switch 15, a line 8|, a safety switch 82 normally held closed by a coil 83 connected across the lines 51 and'58, a line 84 including a series of normally closed manually operable stop switches 85, 86,81 and 88 and the coil 11 to the line 68. Upon excitation of the coil 11, the switch 18 connects the lines 59 and 6|, and .the switches 18 and 19 shunt the sealing circuit across the switch 15. It wlll'be evident that the master switch 56 will not close unless current is available across the lines 51 and 58, and if closed will open upon opening any one switches 85 to 88. It will be noted that the safety switch 82 and the motor generator set 69--62 form an effective electrical interlock between the as was pointed out open circuited by the switch 82 unless a predetermined high voltage is'supplled to the high lpotential mains 51-58, and low potential current is only. supplied to the mains 84-65 when the generator 62 is driven by the motor 69 which is, in turn, energized from the high potential mains 51-58.

Control a'rcuts for spindle drives The two sets of control circuits for the spindle rotative drives are alike, and allel across the various current supply lines 51 and 58, 59 and 68, and 64 and 65, and hence a description of .the circuits for the spindle 48, illustrated in Fig. 2, will sufce for both.

The spindle 48 is adapted to be rotated in eitherv direction and at diierent. selected a. motor 89 enclosed motor 89 comprises a field 98 connected across -the high voltage lines 51 and. 58, and an arma-l ture 9| adapted to be connected reversely across switches 92 and 93 to eect right hand rotation, or switches 94 and 95 to effect left hand rotation of. the spindle 48. The reverse circuits are respectively vas follows: from the line 51, through a line 96, the switch 92, a line 91, the armature 9|, a line 98, and the switch 93 to the line 58; and from theline 51, through the line the armature 9|, to the line 58..

A coil 99 in the line 96 is arranged to opena normally closed switch in the line 84 to open the master switch 56 in the event of a predetermined maximum overload on the motor 89. l

The switches 92 to 95 are normally open, and are adapted to be closed respectively by actuating coils |8| to |84. Exciting circuits for these coils speeds from' Upon .of the stop.

connected in par within the head 38. The

rotation in opposite directions.

96, the switch 94, the line 98,` the line 91 andthe switch 95v are adapted to be closed selectively across the lines 6| and 60 by a relay selector switch |85 yunder the control of a two-way switch |86 and a start or run switch |01. The selector switch |05 comprises two independently excitable coils |88 and |89 adapted respectively to close two switches ||8 and in the circuit for the coils |8| and |82 and two switches ||2 and ||3 in the circuit for the coils |83 and |84. Upon closing the switch |81, a circuit will be completed from the low voltage line 61, through the switch |01, a line H4, and an actuating coil H5, operable upon energization to close a switch |I6, to the lineI 65. Assuming the switch |06 to beadjusted for righthand spindle rotation, the switch ||6 thereupon will complete a circuit, from the main line \6| through the coil |88, a line ||1, the switch |86, a line ||8, the switch ||6, aline ||9, and a normally closed stop switch |28 to the line 68. Upon excitation of the coil |88, the switches I8 and complete a circuit from the line 6|, through the switches ||8 and in parallel, and the coils |8| and |82 in parallel to the line 68, thereby eiecting a closing of the circuit for the arma- Also operable respectively by the coils |82 and |83 are two sealing Aswitches |22 and |23, each of which is connected in parallel with the. run

switch ||6 across the lines ||8 and ||9 so thatwhen the control circuit is established through ,onevor the other of the coils it will be maintained after the switchV |81 is opened.

'Ihe armature control circuit including the coils |8| and |82 or the coils |83 and |84 may be 'interrupted at will to stop'the motor 81 by openingthe switch |28. 'The latter is normally closed, and is .adapted to be opened by a coil |24 upon .closing a manually operable stop switch' |25 to complete a circuit from the line 61, through the switch |25, a line |28, and the coil |24 to the line 65. I

The rate of spindle rotation is subject to a. nely graduated adjustment by a rheostat |21 interposed in theY circuit for the eld 98. The rheostat arm |28 is operable by a motor |29 having an armature. |38 and two series ilelds |3| and |32 selectively available and adapted to effect Two manually operable switches |33 and |34 are available selectively to connect two coils |35 and |36 respectively across the lines 61 and 65. 'I'he coils |35l and |36 are adapted upon excitation to close switches l|31 and |38 in the circuits for the elds |8| and |32. Hence, upon closing the switch |31,

through the switch |31, a line |39, the eld |3|,

aline |48, and the armature |38 to the line 68 toV eiect rotation of the motor |29 in a direction to increase the spindle speed. Similarly, when the switch |38 is closed, a circuit is completed from the line 8|, through the switch |38, a line I4I,

' thefeld |32, the line |48, and the armature |38 a circuit will be Acompleted from the line' 6|,

|28 through a flexible shaft |43 from the motor |29.

To indicate the speed of rotation at'all times, a voltmeter |44, calibrated in revolutions. per minute, is connected through lines and |45 in a closed circuit with a generator |41 driven by the spindle 40. The generator |41 vhas an exciting fieldn |48'adapted to be connected across the lines 6| and 60 by a set of reversing switches |49 operable selectively by the coils |08 and |09. Thus, the eld |48 is reversed whenever the circuit for the armature 9| is reversed so that the voltmeter |44 will always give a positive reading.

To provide a dual control, a second group of switches |01, |258', |335 and |34 is connected inl parallel with the switches |01, |25, |33 and |34. 'I'he parallel connection for the switches of the second group includes the common inlet line 61B. Thus, either group of switches may be rendered selectively available by adjusting the switch 66 to connect one or the other of the lines 61 and (i1 to the line 84. v

Control circuits for translatory drives Y The three sets of control circuits for the'translatory drives also are alike and connected in parallel across the various current supply lines 51 and 58, 59 and 60, and 64 and 65, and hence a descriptionpf thecircuitswfor theqtable 3, illustrated in Fig. 3, will sumce for all.v

'I'he exciting elds I3 and 20 of the motors and I8 are always connected across the Vrhigh voltage lines' 51 and 58, one end of the field |3 being connected to the line 51 through4 a line |50 and a rheostat |5| with an adjustable arm |52.

The circuit for the armature I2 'of the motor is adapted to be completed in one direction, to effect the out movement of the table 3, from the line 51, through a switch |55, a line |53, the armature |2, a line |54, a switch |56, and a starting resistance 58a to the line 58, and in the reverse direction, to effect the inA movement of` the table, from the line 51through a switch |51,

the line |54,v the armature I2, the line |53, a switch |58, and the resistance 58 to the line 58. `imilarly, the circuitvfor the armature I9 of the .apid traverse motor |8 is adapted to be completed reversibly for the outand "in movements of the table 3, either from the line 51, through a switch' |6|, a line |59, the armature I9, a line |50, and a switch |52 to the line 58, or from the line 51, through a switch |53, the line A|50, the armature |9, the line |59, and a switch |54 to the line 58.

The feed switches |55 to |58 and rapid. trav- :rse switches |6| to |64 are normally open, and

` are adapted to be closed selectively upon the respective excitation of coils |55 to |12.v Exciting circuits for these coils are adapted tol be yclosed selectively across the lines 61| and 50 'by a relay selector |13 under the control of a selector switch |14, and a run switch |15'or a traverse switch 16. 'I'he selector |13 comprises two independently `excitable coils |11 and |18 adapted respectively to close a switch |19 in the circuit for the coils |65, |56, |69 and |10, and a switch |80 in the circuit for the coils |61, |58, |1| and |12. When the selector switch 14 is adjusted for out or forward movement of the table 3, it completes a, circuit from the line 61, through the switch |14, a line |8|, and the coil |11 toa line |82. In

completes a circuit from the line 6|,

.a line 209 and a coil 2|0 to line |82. The line |82 is adapted to be connected to the line 65 when either of the spindles 40 ,and 44 yis operating, vfor example through either of two switches |84 and |85 (Fig. 2) upon excitation respectively of the coils 0| and |04. Thus, the switches |84 and 85 constitute an interlock between the spindle drives and the translatory drives.

Upon closing the run switch |15, a circuit is completed from the line 61, through the switch |15, a. line |86, a normally closed switch |81 adapted to be energized upon excitation of a stop coil |88, a line |89 and a run coil |90 to the line |82.." A parallel circuit is closed simultaneously from the line |89, through a normally closed switch 9| adapted to be opened upon excitation of a "jog coil |92, a line |93 and a4 sealing coi-l |94 to the line |82. Excitation of the coils |90 and |94 serves to close and |96. Assuming that the selector `|13 has closed the's'witch |19, closing of the switch |95 through the switch |95, a line |91, the coils |55 and |66, a line |98, and the switch |19 to the line 60, thereby instituting a slow out feed. If, on the other hand, the switch is closed, the circuit will proceed in a parallel through'the coils |61 and |68, a line |99, and the switch |80 to the line 60, thereby instituting a slow in |95 and |96 are closed. The switch |96'c1oses a sealing circuit for the coil |90, from the line 61,

through the switch |14, either the line |8| and a three switches |95, |959` feed. In each instance, the switches path from the line |91,

the coil |92, to line |82. The coil 2| 3a controls a normally open switch 2|3b adapted to be closed against the action of a dash pot 2|3c to shortcircuit the starting resistance 58a'.4 When the coil 2|3 is energized, the switch 2|3b therefore will close after a short time interval to permit the motor to accelerate to normal speed.

Upon closing the traverse switch |18, a circuit is closed from the line 61, through the switch |16, a line 203, and a traverse coil 204 to the line |82.

, The coil 204 serves to close two switches 205 and 206. The switch 205 serves to close a circuit from the line 6|, through the switch 205, and aline 201, either through the coils |69 and |10, the line |98, and the switch |19, or through the'coils |1| and |12, the line v|99 and the switch |80, to the line 60. The switch 206 closes a circuit from the line 6|, through the switch 206, a line 201, and the solenoid 22 to the line 60, to release the brake 2|. Thus, as long as the traverse switch |16 is held closed, the motor I8 will operate. If-

the run switch |15 has been closed, the motor also will operate, and the two motors will drive the table 3 at a rapid traverse. A

Operation of thel motorll may be speeded up by closing a fast feed switch 208 to complete a circuit from the line 61, through the switch 208, the line |82. Upon excitation, the coil 2|0 opens a switch 2|| and closes a switch 2| 2. The switch 2|| normally is closed, and completes through a line 2|4, and the rheostat arm |52 to a circuit from the line 51,.

'cut out a portion of the resistance in the circuit will be noted that the fast feed switch 208 is incuit. When the switch 2I6 is closed, a circuit is completed from the line 6.1, through the switch 2I6, a line 2|1, and the jog coil |92 to the line Upon excitation, the coil |92 opens the switch I9I in `the circuit for `the sealing coil |94, and closes a switch 2I8 to connect the lines 202 and I 86, thereby completing the circuit for the coil` |90. The coil |92 `also closes a switch 2|9 to connect the line 51 across the rheostat I5| directly to the line |50, and opens the switch 2|3 to permit the resistance 58a to remain in the line 58, thereby `effecting a very slow operation of the feed motor II.

Thus, operation may be instituted by closingthe run switch |15, the traverse" switch |16,

or the jog switch 2I6. The sealing circuit is closed only when the switch |15 is actuated. The

.switches |16, 208 and 2|6 must be maintained closed as long as a rapid traverse, a fast feed and a jog feed respectively are desired. The

sealing circuit for the run coil |90 may be interrupted at will to stop the normal feed by momentarily closing a manually operable stop switch 229 to complete a circuit from the line 61, through the switch 220, a line 22|, and the coil |88 to the line |82, thereby opening the switch |81. c

The normal rate of feed of the table 3 is subject to adjustment by varying the resistance in the circuit for the, motor eld I3. To this end, the rheostat arm |52 is adapted to be driven in either direction by a shaft 222 operable from a motor 223. The latter has an armature 224| and two seriesfields 225 and 226 selectively available and adapted to effect rotation in opposite directions. The circuits for the elds 225 and 226 are adapted to be closed respectively by normally open switches 221 and 228 having actuating coils 229 and 230 under the control of manually operable switches 23I-and 232. When the switch 23| is closed, a circuit is completed from the line 61, through the switch 23|, a line 233, and the coil 229 to the line 65. The switch 221 thereupon closes a circuit from the line 6|, through the switch 221, the eld 225, and the armature 22,4 to the line 60 to .effect operation of the motor 223 in a direction to reduce the resistance in the circuit of the field I3, and thereby to reduce the speed of the table 3. The switch 232 is similarly available to close a circuit from the line 61 through the switch 232, a line 234, and the coil 230 to the line 65. Upon excitation of the coil 230, the switch 228 is actuated to close a circuit from the' line 6|, through the switch 228, the

f eld 226 and the armature 224 to the line 60,A

and thereby to eect an increase in the table speed. The approximate rheostat setting is indicated at all times by a gauge 235 driven in synchronism with the rheostat contact arm |52 through a flexible shaft 236 from the motor 223.

To indicate the rate offeed at all times, a

voltmeter 231, calibrated in inches of feed per minute, is connected through lines 238 and 239v in a'closed circuit with a generator 240 driven from a feed change `gearing 24| interposed in -the shaft I4 between the motor II and the worm |5. The generator 240 has a field 242 adapted to be connected across the lines 6I and 60 by a revers'ing switch 243 which is operable by the coils |11 and |18 to reverse the field 242 .whenever the field 3 of the feed motor II 1s reversed so that' the voltmeter 231 will always give a positive reading.

To provide a dual control, a second group of switches |15a, |16a, 208, 2|6a, 2209, 23|a and .2322' is arranged in parallel with the group of switches |15, |16, 208, 2|6, 220, 23| and 232. These two groups of switches may be rendered selectively available by actuating theswitch 6,6 to connect one or the other of the lines 61 and 61*L to the line 64.

Means is provided for automatically interrupting the operation of the machine upon movement of the table 3 into either ofits extreme end positions. 248- and 249 interposed respectively in the lines |83 and |8|. Both limit switches are normally closed, and are mounted adjacent opposite ends of the bed for actuation by the table 3. Movement of the table 3 into its extreme "in and out positions will open the switches 248 and 249 respectively to deenergize the coil |11 or |18.

This means comprises two limit switches f The uninterrupted line will,'however, permit initiation of table-travel in the reverse direction.

In the event of a small predetermined over-v load on the spindles 40 and 44, a switch 252 (Fig. 2) is closed by a coil 253 in the line 96 to complete a circuit across the lines 8| and 60 through a signal device, such for example as an electric lamp 254. Should the overload exceed a `still higher predetermined value, a switch 255 will be closed by a. coil 256 in the line 96 to complete a circuit from the line 51 directly to the line |50, thereby shunting the entire resistance in the circuit for the field I3 of the motor II to reduce the speed of the table 3. If the overload v exceeds a maximum predetermined limit, the switch |00 will be opened by the coil 99 to stop the machine.

In a modied form of the invention (see Fig. 4), a single voltmeter 251 performs the functions of the indicator 235 andthe voltmeter 231.

The voltmeter 251 indicates the rheostat setting during idle periods of the machine, and the rate of travel of the table 3 during working peand the switches 26| and 262 complete a circuit from the voltmeter 251, through a line 265, the

- switch 26|, the contact arm 258, a portion of the potentiometer 259 and a line 266 back to the voltmeter. It will be evident that the voltmeter 251 will indicate the setting of the arm 258 and therefore that of the arm |52. A signal lamp 261 is connected in parallel with the potentiometer 259, and indicates when the voltmeter 251 is registering the rheostat setting.

When the sealinglcoil |94 is excited, for example during normal feed or fast feed, the switches 26D, 26| and 262 are opened to interrupt the circuits for and through the potentiometer 259, and the switches 263 and 264 are closed to connect the lines 265 and 266 with lines 268 and 269, thereby connecting the generator 240 in a closed circuit with the voltmeter 251. The

signal lamp 261'now is out, and the voltmeter 251 indicates the approximate rateof feedl of the table 3.

It will be understood that the rheostat settings and the operating speeds for the other translatory and rotative drives may be indicated in a similar manner. For the rotative drives, the indicator circuits would be controlled by adding a sealing coil to replace the maintaining switches |22 and |23.

Mounting and housing for vcontrols From the foregoing, it will be evident that each ofthe rotative and translatory drives comprises a dual set of control switches, an indicator for the 'rheostat setting and a voltmeter for indieating the speed of operation. The control switches of each set may be of any suitable character, and are herein illustratedI as of the push button type, and as assembled in conveniently spaced and arranged relation in a distinct group. Thus, for the spindle d0, the switches |06, |81, |25, |33 and |33 are mounted in a compact group on a panel 218 (see Fig. 6) forming part of a stationary cabinet 21| on an operators platform 212, and the dual switches |813, |253, |33a and l|34a are similarly mounted on a panel 213 (see Fig. 5) forming part of a small movable pendant 214. The indicator |112, the voltmeter |44 and the signal lamp 258 are mounted on the panel 210 respectively at opposite Sides of and over the group of stationary switches. The corresponding parts for the spindle Lid, identied generally by the reference characters 215 and 215B, are similarly mounted and arranged on the panels 213 and 213.

Similarly, for the table 3, the switches |18,`

|15, |16, 288, 2|6, 220, 23| and 232 are mounted in a compact group on the stationary panel 210, and the dual switches |16, |153, |163, 208a 2|6a, 220e, 23|a and 232a are mounted in a similar group on the movable panel 213. The indicator 235 and the voltmeter 231 are mounted on the panel 218 respectively at opposite sides of the group of stationary switches. 'Ihe corresponding parts for the rail 29 and the translatory drive forl the heads 38, 39, the spindle 40 and the ram d2, identified respectively by the reference l characters 216 and 216B, and 211 and 211, are similarly mounted and arranged.

The stop switch 85 is mounted on the movable panel 213. The stop switches 86, 81 and 88 are.

mounted on the panel 216 respectively in associated relation with the stationary control switches for the head and ram drive, the'table drive, and the rail drive. Also mounted on the stationary panel 218 are the selector switches 66 and 66B for transferring thev control from the stationary panel 210 to the movable panel 213 or vice versa, the reset switch 13, and a coolant control 218. l

One of the important features of the invention resides in the provisionof visual indicators on the panels 218 and 213 in association with the respective groups of control switches thereon to for the translatory drives to indicate the direction of travel of the associated machine elements. Also, the indicators for each set of dual controls for each drive are alike to permit ready identification and comparison.

The dual controls for each drive are provided respectively with three sets of visual indicator lines of which two sets are located respectively between the switch actuators on the panels 216 and 213, and one set is provided on the dial of the associated rheostat indicator. Thus, three sets of horizontal lines 219, 219at and 219b are provided for the dual controls for the spindle d6, three sets of vertical lines 28D, 28|!a and 28|)b are associated with the controls 215 and 215e for the spindle 4d, three sets of horizontal lines 28|, 28|a and 28|b serve the controls for the table 3 and indicate the plane of travel thereof, three sets of vertical lines 282, 282a and 282b are associated with the controls 216 and 2169 and indicate the direction of travel of the rail 29, and three sets of vertical and horizontal cross lines 283, 283a and 233b are associated with the controls 211 and 211a and indicate the direction of travel of the heads 38 and 39, the spindle (lllI and the ram 42. It will be noted that the horizontal and vertical lines for the different sets of controls are substantially spaced from each other on the panels 218 and 213.

In operation, if the drive for the spindle dll is being controlled from the panel 218, and the control is shifted to the panel 213 by reversing the switch 66, the indicator 219e, being the same in form and general location as the indicator 219, will direct the operators attention immediately to the proper switch actuators on the panel 213. The transfer of the control from one panel t0 the other for any one or more of the other drives is similarly facilitated.

The high voltage lines are housed mainly in a cabinet 281| remote from the machine. The

intermediate and low voltage lines are enclosedl mainly within the cabinet 21|. Only certain 10W and intermediate voltage switches are mounted in the pendant 218. Hence, the pendant 214 can be made small and compact to facilitate ready and convenient manipulation thereof.

The leads from the pendant 214 and the various drive motors on the machine to the cabinets 21| and 28@ are concealed to a large extent, and where not concealed are protected and located out of the way. Thus, the leads for the table and cross rail drive motors l I, I8, 35 and 36 are located beneath the body of the machine I and the platform 212 or buried in the foundation.

for the drive motors 54 and 55 are enclosed within two cables 289 which together with the cables 285 and 286 from the pulley 288 run over a pul- `consist of various groups of parallel lines, de- 4fined by grooves or painted stripes and orientated and 39. v'in thepresentinstance, the pendant,

.a pulley 29| `motor 298 subject to the control ley 299, then from the housing along the rear of the cross rail 29 (see Figs. '1 and 8), then over mounted in a bracket 292 on one side 23, then vertically and over a mounted within a housing 293 on the of the column pulley 292 top of the column, and then downwardly within i the column about a suspended pulley 294 supporting acounterweight 295 and upwardly to a bracket 296 where they are rigidly anchored. Separable sections -of the conduits 265, 286 and 289 lead from the bracket 296 downwardly along 'the exterior of the column'23 between the ways 21 and 2s, theonduit the outlet of a coolant pump 286 being connected to 291 operable by a 218, and the conduits 285 and 299 continuing with the leads from the motors Il, i8, 35 and 36 to the cabinets 21| and 289.v x

The leads and coolant ,f line for the headstock 39 are venclosed within two cables 299 which extend along the cross rail 29 to a pulley box 399, and then are guided along the column 24 in a similar manner (not shown) :to the base of the machine and the cabinets 21| and 264. v

The cables therefore follow the general contour of the machine, and are always taut re` gardless of the position of the cross rail 29 or either of the headstocks 39 and 39. The arrangement is such that the cables 295, 299 and 299 are of the same length so that only a small number of extra cables for repair purposes need be kept on hand. y Y

For the convenience of the operator, the pendant 219 is mounted f or adjustment over a wide range both horizontally and vertically. Preferably, the adjustment is such'- that the pendant 219 lwill always be positioned substantially the same distance from the front of the cross rail 29, so as not toget in the way of the operator nor interfere with the cross rail and heads 3B 219 is' suspended from the forward lend of a rigid generally horizontal conduit 392 by a flexible conduit 399. A cable 39| Ais attached to the conduit 392 so that the .leads therein are directed through thelatter and the conduit 393 to the Vpendant 219. The conduit 392 (seefFlgs. 9- and' l) is mounted intermediate its ends, -for horin Azontal and vertical pivotal movements, on the free end of a rearwardly extending arm 394 supported at its forward end by a vertical pivot connection 305 on the bridge member 25.

Rigidly connected to the conduit 392 and con- ,stituting a rearward extension thereof is an arm 396 formed with a pivot block 391 and support-- ing a counterweight 399 on its free end. A ball 399 is journaled on horizontal tr'unnions 3|9 extending transversely of the arm 396 within the Yblock 391, and is freely slidable on a generally vertical rod 3H connected at its lower end to the bridge member horizontal axis parallel to that of the ball.

Since the forward end of the conduit 962 denes a long radius, the pendant 219 will be adjustable vertically in an approximately straight line. Horizontal adjustment AT he arm 394 will thereupon cause thejpivotal support for thev conduit 392 to be so adiusted vthat the horizontal movement of the pendant 219v will also be along an approximately For example, thel rotation of the spindle and, 232n are* available. -216", and 211 and for pivotal movement about a' Y of vthe pendant l'will swing the conduit 392 laterally about the rod 3| i.

on the panel 210 is closed temporarily.I Thereupon, the master switch 56is closed permanently to establish the connection between the lines 69 and 6|.

The machine may be controlled from the panel 219 orl the panel 213 by adjusting the switches 66 and to the line 61 or the line 61B., The direction of each drive is adapted for independent control. 49 is under the control of the switch |96 on the panel 219. Similarly, the direction of travel of the table 3 may be reversed by means of the switch |14 on the panel 219 or the switch |14-on the panel 213. I t

Assuming that thev control is from the stationary panel 219, the rotative drive for the spindle 49 may be set into operation by closing the switch |91, and may be interrupted by closing the switch |25. The speed of rotation may be increased or decreased respectively by holding the switch |33 or the switch |34 closed until the voltmeter |44 indicatesv the desired speed. The corresponding rheostat setting is indicated by the gauge |42. When the control is shifted to the panel 213, the switches |913, |25, |338L and |94 are available for the same functions. The rotative drive for the spindle 44 is similarly controlled from the groups of switches 215 and 2158.

Assuming that one of the spindles 49 and 94.

is Vin operation, translation of the table 3 may be institutedby closing either the run switch |15, the jog switch 2 I6 or the traverse switch |16,

and may be stopped by closing t'he switch 229.

'When the control is shifted to the panel 213,

the switches |15, |16, 206B, 2|6, 229B, 23| 'I'he controls 216 and 211 are similarly available for the-other translatoy drives.

66 to connect the line 64' either 1i' the table 3 is moved beyond either of its end positions, the circuit to will be interrupted to stop the operation of all of the machine elements. If the load on either of the spindles 49 and 44 exceeds a predetermined amount, a danger signaly will be flashed. If either of the spindlesvis subjected to a still higher predetermined overload, the rate of feed of the translatory elements will be automatically reduced. 1f the overload'on either spindle exceeds a predetermined maximum'the master' switch 56 will open automatically' to stop the operation of the machine. The machine may also be stopped manually by opening either of the switches 66, 85, 36, 81 and 88.

-I claim as my invention:

1.-A machine tool comprising, in combination..

an operative'machine tool element, anelectric `motor for driving said element and including an armature circuit with reversing switches, a high potential supply main for said circuit, a plurality ofwprimary coils forv actuating said switches, an intermediate lpotential supply main, direction of said' coils to said last mentioned main, a llow potential supply main, a plurality of ,secondary coils for actuating said direction switches, and

control switches for connecting 'said vsecondary switches for controlling the relative connection coils selectively across said low potential main.

2. A machine tool comprising, iniombination.-

a movable machine tool element, elcfrb motors driving means for saideelement having aekrcn-r f.

cuit and an armature circuit, a high `potential source of current for energizing said circuits, magnetic reversing switches for controlling the application of current to said armature circuit,

magnetically operated switching means controlling the degree of energization of said eld circuit to determine the speed of movement of said element, a low potential source of current, a panel remote from said electric motor driving means, and a compact group of control switches on said P panel for controlling the energization of said magnetic switches and switching means from said low. potential current source.

3. A machine tool comprising, in combination, an operable machine tool element, a stationary panel, a movable panel adapted to be moved about ,themachine by the operator as he inspects the operation of said element, an electric drive for said element and including two alternatively available sets of control switches mounted respectively on said panels, and means available at will for selectively rendering one or the other of said set in control of said drive.

4. A machine tool comprising, in VcombinationfA an operable machine tool element, a stationary panel, a movable panel, an electric drive for said element and including two selectively available parallel connected sets ofcontrol switches mountedrespectively on said panels, and like identifying indicia associated with said sets of switches for indicating the positions of the corresponding'control devices in said sets and there- 'by facilitating shifting of the control of the operation of said element other. y

5. A machine tool comprising, in combination, a bed, a table element reciprocable on said bed,

from one panel to thev two spaced columns rising from said bed, a

cross-rail element mounted for vertical translation on said columns, a head element mounted for translation on said cross-rail element, a spindle element mounted for translation on said'head element and for rotation, a rotary electric drive for said spindle element, a plurality of translatory electric drives respectively for said elements, and two dual selectively available controls for said drives mountedon two separate panels, each control including a group of control on said panels for each drive.

6. A machine tool comprising, in combination, an operative machine tool element, an electric motorl for driving said element and including' a speed. control circuit, an adjustable rheostat in said circuit, a reversible electric motor for adjusting said rheostat, means including a gauge. operatively connected to said last mentioned motor for indicating the setting of said rheostat, and means responsive to the-speed of said iirst mentioned motor for indicating the rate of drive devices mounted of said element.

'7. A machine tool comprising, in combination,

. an operative machine tool element, an electric motor for driving said element andincluding a speed control circuit, an,i adjustable rheostat in said circuit, a reversibleelectric motor for ad- Vjusting said rheostat, and electric means automatically operable when saidfrst mentioned motor is idle for indicating the setting of said rheostat, and when said rst mentioned motor is Ature circuit, a normally open feed rate to a minimum value,

vswinging movement on vamovable'machine*toolelement, an electric motor o,

for driving said element and including an armaswitch means Ain said armature circuit, means including a master switch having a sealing circuit for controlling said switch in said armature circuit, a normally closed magnetically operable stop switch`in said sealing circuit, and means including a coil in said armature circuit for opening said. stop switch when the load on said motor exceeds a predetermined maximum andthereby break the sealing circuit of saidmasterswitch to open the same and in turn permit openingof said normally closed switch to stop said motor. Y,

9. A machine tool comprising, in combination, a rotary element, a translatory element, individual electric driving mechanisms for respectively rotating and translating said elements, individual control means for selectively varying the speed of each of said driving mechanisms, and an electric interlock between said driving mechanisms for i automatically adjusting'one of said control means to decrease the speed of the associated element when the load on the other element exceeds a predetermined value.

10. A machine tool comprising, in combination, a movable machine tool element, an electric motor for driving said element and including a speed control circuit, means including an adjustable rheostat in said circuit for selectively varying the feed rate of said element, an -electric motor for adjusting said rheostat, means available at will for shunting said rheostat to decrease said able at will for shunting a predetermined portion of the resistance in said rheostat to decrease said feed rate to an intermediate value.

1l. In a machine tool, in combination with a support, an elongated arm having a universal pivot connection with said support, said connection being freely translatable in one planeand constrained against movement out of said plane, a control member supported on said arm, 'and a second universal pivot connection between said arm and said support and constrained for translation in a plane .perpendicular to said first mentioned plane, 'whereby said arm is adapted for a long radius in one vdi rection about said last mentioned pivot connection and for swinging movement in a perpendicular direction about said rst mentioned pivot connection, and whereby said last mentioned pivot connection is operative to translate said rst mentioned pivot connection to modify the path of said member during said last mentioned swinging movement.

12. In a machine tool, in combination with a support, an elongated arm having a universalpivot connection with said support,A said connection being freely translatable in one plane and constrained against movement out of said plane, a control member supported on said arm, and means for automatically shifting said connection in accordance with the swinging i'ovement of said ann in one directionv aboutsaid connection to modify the path of said member.

13. In a machine tool, in combination, an elongated horizontal support; an'elongated generally horizontal arm. extending transversely of and to the front of-said Support. means deiining a vertical pivot connecting the rear portion of said arm to said Support andadjustableln a plane rapid traverse potential supply main for said driving means, an 1 electrically operable control means for controlling the energization of said driving means to effect selected traversing of said element at a rate and at a feed rate and to eiect selective changes in the direction of movement thereof, a mobile manually operable control station for governing the operation'of said rst named control means and adapted t o be readily moved about the machine tool by an operator, said control station including a panel having a plurality of manually operable control devices mounted thereon, and means including a plurality of elongated iiexible conductors extending from said mobile panel in the form of a, compact flexible cable and adapted to carry only a low voltage current for connecting said control de- -motor driving means for said vices in circuit relation with said electrically controlled irst named control means and thereby electrically isolating said high potential main from said mobile panel while at the same ytime providing means for selectively eiecting rapid traverse andfeed movement of said machine tool element from remote points. l

23. A machine tool comprising, in combination, a reciprocable work. supporting table, electric table including two electric motors operatively connected to said table through a dierential gear mechanism, a

.high potential surpply main for saidA electric motors, electrically operable control means for selectively energizing one of said motors to move said table at a feed rate, and for energizing the other of said motors to move said table at a rapid traverse rate, said con-trol means also embodying means for selectively varying the speed and direction of rotation of said second motor cto vary the direction and speed of movement of said table, a mobile manually operable control station for governing the operation of said rst named control means and adapted to be readily `moved aboutl the machine tool by an operator, Said control station including a panel having a plurality of manually operable control devices mountedthereon, and means including a plurality of elongated flexible conductors extending from said mobile panel in the form of a compact exible cable and adapted to carry only a low voltage current for connecting said control devices in circuit relation with said electrically controlled rst namedA control means and thereby electrically isolating said high potential main from said mobile panel while at the same time providing means for exible control of said motors from remote points.

24. A machine tool comprising, in combination, a. translatory machine tool element, electric motor driving means for said element, a 'high poten'tial supply main for said driving means, electrically operable control means for controlling 'the energizationvof said drlving'means to e'ect selected traversing of'said element at a rapid traverse rate and at a Irelatively slow feed rate and to effect selected changes in the direction vffecting an accurate and of movement thereof, a mobile manually operable control station for governing the operation of said rst named control means and adapted to be readily moved about'the machine tool by an operator, said 'control station including a panel having a pluralityof manuallyoperable control devices mounted thereon, means includmeans only when said third control device is held in a predetermined position, and means including a plurality of elongated ilexible conductors extending from said mobile panel in the form of a compact ilexible cable and adapted to carry only a low voltage ycurrent for connecting Said control device in.- circuit relation wi'th said electrically controlled rst named control means and thereby electrically isolating said high potential main from said mobile panel while at the same time providing means for effecting accurate and flexible control from remote points.

25. A machine tool comprising, in combination, a translatable machine tool element, a. rotatable machine tool element, individual electric driving means for said elements, a mobile manually operable control station for governing the operation of said driving means and adapted to be readily moved about the machine tool by an opera-tor, said control station including a plurality of said driving means of push button operated switches mounted thereon ingrouped relationship, each of said groups of switches being operatively connected to their respective drivingmeans, and a prominent bar extending across an end portion of said panel for operating a supervisory control switch arranged to de-energize all of said driving means.

"26. A machine tool comprising, in combination, an operable machine toolelement, electric driving means for said element, -a mobile manually operable control station for governing the operation of said driving means and adapted to be readily moved about the machine `tool by an operator, said control station including a panel having a plurality of push button operated switches mounted thereon to eect selected variations in the movement or said element, and a prominently positioned operating bar extending substantially across said panel for operating a switch arranged to de-energize said driving means.

27. A machine tool comprising, in combination, an operable machine tool element, means including -an electric motor and a speed control circuit therefor for driving said element, an adjustable rheostat in said circuit, means including a re aosasia 9 transversely of said support, a control member supported on the forward portion of said arm, and means acting on an intermediate portion of -said arm for automatically adjusting the posi- 5 vtion of said pivot relative to said support inaccordance with the swinging movement of said arm to modify the path of said member. 14:. In a machine tool, in combination with a support, an elongated arm having a pivotal ccnl0 nection with said support, a control member mounted onsaid arm for swinging movement about said connection at a predetermined radius, and means for automatically adjusting said connection relative to said support in accordance l5 with said swinging movement to cause the path oi' said member to approximate a straight line. 15.. In al machine tool, in combination with a v transverse support, a rearwardly extending lever connected at its forward end to said support 20 for pivotal movement about a verticaly axis, a generally vertical rod connected to said support rearwardly of said axis for pivotal movement on -a horizontal axis extending longitudinally of said support, a forwardly extending arm having a 25 universal pivot connection with the free end of said lever and a universal pivot connection with said rod. said last mentioned connection being f sldable lon said rod, a counterweight onthe rear -end oi' said arm, and a control f or the machine 30 tool nexibly suspended from the forward end. of

said arm.

. '16. A machine tool comprising, in combination, a base, a hollow vertical column rising from said base, a horizontal guide member mounted 35 for vertical translation on said column,lmeans for driving said member. a head mounted on the front of saidmember for horizontal translation and-including a spindle, electric drive means in said head i'or said spindle, electric drive means i on said member for said head, a system of electric circuits including a remote control for` said electric drive means andttwo sets of leads extending respectively to said electricl drive means, conduits for saidkleads anchored respectively to l said head and member and having an anchor within said column, 1and a system of pulleys directing the conduits from said head along the iront and toward one end of said member, then with the conduits from said last mentioned elec- 50 tric drive means along the rear of said member.

then upwardly along said column, then downwardly and upwardly within said column to said anchor, and then to said control, and weight means engaging said conduits within said column 56 to tension said conduits in all positions'of said member and said head.

17. A machine tool comprising, in combina-l tion, a base, a hollow vertical column rising from said base, a horizontal guide member mounted 60 for vertical translation on said column, 'means for driving said member, a head mounted on the y frontnof said member for horizontal translation and including f self-contained electric drive means, an anchorin said column, a system of electric circuits including a remote control for said electric drive means and including leads extending to said head, a plurality of conduits of equal lengths for said leads and attached to said .m head and said anchor, a system oi' guides for directing said conduits along the front and to one end of said member, then inwardly along the rear of said member, and then downwardly and upwardly to form a bight within said column, 75 and weight means suspended from said bight to tension said conduits in allpositions of adjustments of said member and said head.

18. A machine tool comprising, in combination, an operative machine tool element, an electric motor for driving said element, a high poten- 5 tial supply main and an intermediate potential s upply main, control means actuated -by energy f from said intermediate potential supply main for connecting said motor to said high potential supply main, a low potential supply main, l0

secondary control means actuated by energy from said low potential supply main for selectively connecting said rst named control means to said intermediate potential supply main, and means including an electricalinterlock for preventing the actuation of either of 'said control means in the absence of predetermined minimum voltages on each of said supply mains.

19. A machine tool comprising, in combination, an operative machine tool element, an electric motor for driving said element having a field circuit and an armature circuit, a high potential source of current for energizing said circuits,

magnetic reversing switches for controlling the vapplication of current to said armature circuit,

an electrical interlock for preventing the actuation of said magnetic switches and said switching means in the absence of predetermined minimum voltages on each of said supply mains.

20. A machine tool comprising, in combination, an operative machine tool element, an electric motor for driving said element, a high potential supply main and an intermediate potential Asupply main, a switch having a pair of contacts` biasedto their open position interposed in one of said supply mains andan operating coil energized from the other of said mains forming van electrical interlock therebetween, control means actuated by energy from said intermediate potential supply main for connecting said motor to said high potential supply main, a low potentials() supply main, secondary control means actuated by energy from said low potential supply main for selectively connecting said rst named control means to said intermediate potential supply main, and a generator for supplying low potential current to said low potential supply main, said generatorvbeing driven by a motor energized from one of the other of said supply mains.

2l. A machine tool comprising, in combination, an operative machine tool element, electric motor driving means for saidfeIement, a high potential supply main Afor said electric motor, electrically operable control means for controlling the energization` of said motor from said high potential supply main to effect selected 65 changes in vspeed and direction of mogjement of said machinetool element, a mobile 'manually operable control station for governing the operation of said iirst named control means and adapted to be readily moved about the machine tool by an operator, said control station including a panel having a plurality of manually operable control devices mounted thereon, and means including a plurality of elongated flexible conductors extending from said mobile panel in the form of a gizing and del-energizing said rst named motor to start and stop said element.

28. A machine tool comprising, in combination, a movable machine tool element, means including an electric motor and a speed control circuit therefor for driving said element, an adjustable rheostat in said circuit, means including a reversible electric motor for operating said rheostat, a. control panel, a meter mounted on said panel adapted to indi-cate the rate of translatory movement of said element, a manually operable control means mounted on said panel in juxtaposition to said meter for selectively eii'ecting operation of said reversible motor in one direction or the other to alter the rate of movement of said element, a second manually operable control means mounted on saidI panel in juxtaposition to said meter for selectively energizing and de-energizing said first named motor in response to a momentary actuation`of said second manually operable control means to start and` stop said element, an-d a third manually operable ntrol means mounted on said panel in juxtaposition to said meter for energizing said first named motor tomove said element only when said.' third control means is manually held in a predetermined position.

29. A machine tool comprising, in combination, an operative machine tool element, electric motor driving means for said element, a control panel, manually operablemeans mounted on said panel for selectively varying the speed of rotation of rsaid motor to control the rate of movement of said element, an indicating device mounted on said panel in juxtaposition toA said manually operable means for indicating when the load imposed on said motor by the operation of said element attains a predetermined overload value, and means responsive to the load imposed on said motor for -de-energizing said motor when said load attains predetermined maximum value.

30. A machine tool comprising, in combination, a translatable machine tool element, electric driving means for said element, an energizing circuit for said electric driving means, means including a manually operable device for initiating energization of said 'driving 'means to effect a rapid traverse movement of said element, a second manually operable device forenergizing said driving means to effect a relatively slower feed movement' of said element and for maintaining such energization in response to a momentary actuation of said second manually operabledevice, and means including a third manually operable device for maintaining said driving means energized to effect a relatively rapid feed movement of said element only during such time as said third manually operable device is held in a predetermined position.

31. A machine tool comprising, in combination, a movable machine tool element, 'power actuating means for said element, a, normally operable control means for varying the speed of said element within a normal speed range in response operated at a previously selected normal speedcorresponding tothe setting of said normal con'-,

trol means when the latter is again rendered operative by said selector.

32. A machine tool comprising, in combination, a movable machine tool element, an electric motor forv effecting a feed movement of said element, means including a rheostat for varying the speed of said motor within a normal speed range, normal control means for selectively varying the setting of said rheostat, and means operable at will for short-circuiting said rheostat without disturbing the setting thereof to operate said motor at a relatively faster speed whereby said motor is again restored to its previously selected normal operating speed corresponding to the previous setting of said rheostat when the latter' is again put in circuit by said last named means.

33. A machine tool comprising, in combination, a movable machine tool element, electric motor driving means for said element having a eld circuit and an armature circuit, a high potential source of current for energizing said circuits, magnetic' reversing switches for controlling the application of current to said armature circuit, magnetically operated switching means controlling theV degree of energization of said iield circuit to determine the speed of movement of said element, a low potential source of current, a mobile panel remote from said electric motor ldriving meansy and adapted to be readily moved said contr'ol switches and the apparatus controlled thereby.

3 4. In a machine tool, in combination with a support, anelongated arm, means forming a piv-' Votal connection between said support and said arm for movement of the latter in a generally horizontal plane, a control member mounted on said arm for swinging movement about said connection, and means for automatically adjusting said connection relative to said support in accordance with said swinging movement to cause the eiective radius of curvature of the path of said member to increase as the member is moved from a centered position.

35. A machine tool comprising, in combination, a movable machine tool element, electric driving means for said element, an energizing circuit for said electric driving means, a manually operable switch device for energizing said driving means to effect a, relatively slow feed movement of saidA element and for maintaining such energization in response to a momentary actuation of said manually operable switch device, means including a second manually operable switch device which is maintained operativeA only when said device is held in a predetermined position for varying the rate of said feed movement within a given normal range, and means including a third manually operable switch device for maintaining said driving means energized to move said element at a speed above or below said normal range only during such time as said third manually operable switch device is held in a predetermined position..

36. A machine tool comprising, in combination, a movable machine tool element, electric driving means for saidelement, an energizing circuit for said electric driving means, a manually operable switch device for energizing said vdriving means tol effect a.- relatively slow feed movement of said element and for maintainingv such energization in response to a momentary actuation of said manually operable switch device, means including a second manually operable switch device which is maintained operative only when said device isheld in a predetermined position '5v for varying the rate of said feed movement within a given normal range, meansincluding a third manually operable switch device for maintaining said driving means energized to move said element at a speed above or below said normal :10 range only during such time as said third manu- .15 ually by the operator to various positions about the machine tool.

37. A machine tool comprising', in combination,

v a translatable machine tool velement, electric motor driving means for said element having a ileld circuit and an armature circuit, means includ ing an adjustable rheostat interposed in said eld circuit for varying the speed of operation of said machine tool element within a normal speed range, and switching means operable to'energize said driving means to eiIectv jogging of said machine tool element including means for shunting at least a portion of said rheostat and simultaneously increasing the resistance of said armature circuit, thereby eiecting a. relatively slower movement of said machine tool element.

WILLIAM F. RIDGWAY. 

